Course Code: UPY15301 SRM UNIVERSITY FACULTY OF SCIENCE AND HUMANITIES DEPARTMENT OF PHYSICS AND NANOTECHNOLOGY SECOND Year B.Sc. Physics (2015-2016 Regulation) Course Title: Heat and Thermodynamics Class: II nd B.Sc. PHYSICS Semester: III rd Course Time: JUNE NOVEMBER, 2017 Location: SRM UNIVERSITY Lesson Plan OBJECTIVES 1. To know the fundamentals of heat 2. To understand the concepts involved in transmission of heat 3. To understand the basic principle and laws of thermodynamics 4. To understand the concepts of entropy Assessment Details: Cycle Test I : 10 Marks Cycle Test II : 10 Marks Model Exam : 20 Marks Surprise Test : 5 Marks Attendance : 5 Marks
SRM UNIVERSITY FACULTY OF SCIENCE AND HUMANITIES DEPARTMENT OF PHYSICS AND NANOTECHNOLOGY SECOND Year B.Sc. Physics (2015-2016 Regulation) Semester Course Code Course Title Total of L T P C L+T+P 3 UPY15301 HEAT AND THERMODYNAMICS 4 1 0 5 4 Syllabus UNIT I - INTRODUCTION TO HEAT: Basic Definitions Newton s law of cooling Specific heat of a liquid calendar and Barne s continuous flow method Two specific heats of a gas Specific heat of a gas by Jolly s differential steam calorimeter Regnault s method Dulong and Petit s law Einstein s theory of specific heat - Debye s theory of specific heat - variation of specific heat ad atomic heat with temperature - Transference of heat. UNIT II - TRANSMISSION OF HEAT: Conduction Coefficient of the thermal conductivity Rectilinear flow of heat along a metal bar - Methods of radial flow of heat - Spherical shell method and flow of heat along the wall of a cylindrical tube - Determination of thermal conductivity of rubber and bad conductor Lee s disc method to find thermal conductivity of bad conductor. Conduction Radiation Black body Wein s Law Raleigh Law and its significance Jean s Law Stefan s law Experimental Determination of Stefan s constant Mathematical derivation of Stefan s law. UNIT III - KINETIC THEORY OF GASES: Maxwell s law of distribution of molecular velocities Experimental verification of molecular velocities Equilibrium speed distribution of velocities - Mean free path of gaseous molecules Transport phenomena Diffusion of gases Viscosity and thermal conduction of gases Vander walls equation of state Determination of Vander walls constant Comparison of vanderwall s equation with Andrews experiment - Relation between Vander Wall s constant and critical constants. UNIT IV - LAWS OF THERMODYNAMICS: First law of thermodynamics Isothermal and Adiabatic process Gas equation during an adiabatic process Work done an adiabatic expansion of gas Equation of an adiabatic curve Isothermal processes Determination of g by Clement and Desorme s method Second law of thermodynamics Concept of Carnot s engine- Working efficiency of Carnot s engine Carnot s refrigerator Carnot s Theorem and its significance. UNIT V - CONCEPT OF ENTROPY: Third law of thermodynamics - Concept of Entropy - Temperature entropy diagram entropy of perfect gas - Entropy Change in entropy in a reversible process and irreversible process temperature entropy diagram Entropy of a perfect gas increase of entropy in any irreversible process Thermo dynamics functions Maxwell s thermodynamics relations and applications Joule Kelvin effect theory- Claussius and Clapeyron equation - Specific Heat Relation.
TEXT BOOKS 1. Brijlal, N. Subrahmanyam and P. S. Hemne, Heat, Thermodynamics and Statistical Physics, Revised 2. Richard H Dittman and Zemansky MW, Heat and Thermodynamics, 3rd Special Edition, McGraw Hill, 2008. REFERENCES 1. Michael J. Moran, Howard N. Shapiro, Daisie D. Boettner and Margaret Bailey, Fundamentals of Engineering Thermodynamics, John Wiley and Sons, 2011. 2. D.S. Mathur, Heat and Thermodynamics, S. Chand and Company, 2006. 3. Kittel C and Kroemer H, Thermal Physics, W. H. Free man, New York, 1980. 4. Stephen Blundell and Katherine M. Blundell, Concepts in Thermal Physics, Oxford University Press, 2006. 5. Anandamoy Manna, Heat and Thermodynamics, Dorling Kindersely Pvt Ltd, 2011.
Lesson Plan Subject Name: HEAT AND THERMODYNAMICS Subject Code: UPY15301 Lecture Hour Contents Description UNIT I - INTRODUCTION TO HEAT References 1 Introduction to Heat and Thermodynamics Brijlal et al., Heat, Thermodynamics 2 Basic Definitions 3 Newton s law of cooling 4 heat of a liquid calendar and Barne s continuous flow method 5 Two specific heats of a gas 6 Specific heat of a gas by Jolly s differential steam calorimeter 7 Regnault s method 8 Dulong and Petit s law 9 Einstein s theory of specific heat 10 Debye s theory of specific heat 11 Variation of specific heat and atomic heat with temperature, Transference of heat 12 Problem Solving Session 13 Problem Solving Session 14 Problem Solving Session 15 Revision UNIT II - TRANSMISSION OF HEAT 16 Conduction Coefficient of the thermal conductivity Brijlal et al., Heat, Thermodynamics 17 Rectilinear flow of heat along a metal bar 18 Methods of radial flow of heat - Spherical shell method and 19 flow of heat along the wall of a cylindrical tube 20 Determination of thermal conductivity of rubber and bad conductor 21 Lee s disc method to find thermal conductivity of bad conductor 22 Conduction Radiation 23 Black body Wein s Law 24 Raleigh Law and its significance, Jean s Law, Stefan s law
25 Experimental Determination of Stefan s constant 26 Mathematical derivation of Stefan s law. 27 Problem Solving Session 28 Problem Solving Session 29 Problem Solving Session 30 Revision CYCLE TEST-1 UNIT III - KINETIC THEORY OF GASES 31 Maxwell s law of distribution of molecular velocities Brijlal et al., Heat, Thermodynamics 32 Experimental verification of molecular velocities 33 Equilibrium speed distribution of velocities 34 Mean free path of gaseous molecules 35 Transport phenomena 36 Diffusion of gases 37 Viscosity and thermal conduction of gases 38 Vander walls equation of state 39 Determination of Vander walls constant 40 Comparison of van der wall s equation with Andrews experiment 41 Relation between Vander Wall s constant and critical constants 42 Problem Solving Session 43 Problem Solving Session 44 Problem Solving Session 45 Revision UNIT IV - LAWS OF THERMODYNAMICS 46 First law of thermodynamics, Isothermal and Adiabatic process Brijlal et al., Heat, Thermodynamics 47 Gas equation during an adiabatic process 48 Work done an adiabatic expansion of gas 49 Equation of an adiabatic curve 50 Isothermal processes 51 Determination of g by Clement and Desorme s method 52 Second law of thermodynamics 53 Concept of Carnot s engine 54 Working efficiency of Carnot s engine 55 Carnot s refrigerator 56 Carnot s Theorem and its significance Richard H Dittman and Zemansky MW, Heat and Thermodynamics, 7 th Ed., McGraw Hill, 1997. 57 Problem Solving Session Richard H Dittman and Zemansky MW, Heat and Thermodynamics, 7 th Ed., McGraw Hill, 1997.
58 Problem Solving Session Brijlal et al., Heat, Thermodynamics 59 Problem Solving Session 60 Revision CYCLE TEST-2 UNIT V - CONCEPT OF ENTROPY 61 Third law of thermodynamics, Concept of Entropy Brijlal et al., Heat, Thermodynamics 62 Temperature entropy diagram 63 Entropy of perfect gas 64 Entropy Change in entropy in a reversible process and irreversible process 65 increase of entropy in any irreversible process 66 Thermo dynamics functions 67 Maxwell s thermodynamics relations and applications 68 Maxwell s thermodynamics relations and applications 69 Joule Kelvin effect theory 70 Claussius and Clapeyron equation 71 Specific Heat Relation Richard H Dittman and Zemansky MW, Heat and Thermodynamics, 7 th Ed., McGraw Hill, 1997. 72 Problem Solving Session Brijlal et al., Heat, Thermodynamics 73 Problem Solving Session 74 Problem Solving Session 75 Revision MODEL EXAMINATION Prepared By: Dr. Surya V.J.